US20130139319A1 - Evacuation sled for non-ambulatory patients - Google Patents

Abstract

An evacuation sled for non-ambulatory patients preferably includes a plastic sheet having a plurality of handholds disposed about left and right side edges of the sheet, each handhold comprising an opening with a plastic reinforcement above the opening. A plurality of patient retention straps are coupled to the plastic sheet and are configured to secure a patient in the plastic sheet when the plastic sheet is curved upward about the patient. A pull strap is coupled through a head of the plastic sheet and is configured to permit a person to drag the patient strapped to the plastic sheet. Preferably, a foot strap is affixed to the head pull strap and coupled to a foot of the plastic sheet. The foot strap is configured to cause, when tension is applied to the head pull strap, at least one portion of the plastic sheet foot to raise upward and at least partially enclose the feet of the patient.

Description

• This application is a continuation of U.S. patent application Ser. No. 12/700,027, filed Feb. 4, 2010, now U.S. Pat. No. 8,365,326, issued Feb. 5, 2013 the contents of both incorporated herewith.
BACKGROUND OF THE INVENTION
• 1. Field of the Invention
• The present invention relates generally to rescue and/or evacuation devices (e.g., “sleds”) for non-ambulatory or bed-ridden persons. More particularly, the invention relates to such a device in which a patient may be rapidly and securely enclosed before transfer from a hospital bed to a safe location over land or water.
• 2. Related Art
• Evacuation sleds are used by hospitals, assisted living facilities, emergency services, etc, to rapidly and safely evacuate patients from danger zones, such as flood areas. The patient is typically transferred from a bed into the sled, lowered to the floor, and then evacuated by pulling or dragging. An efficient evacuation sled can be deployed and used by a single nurse or other first responder. An evacuation mattress is disclosed in International Application Number PCT/NL 86/00015 published Dec. 18, 1986 under No. WO 86/07253 based on a Netherlands application filed Jun. 12, 1985. The mattress is characterized by belts or ropes to be put around the patient, which are permanently fastened to the mattress. Such a mattress, while very useful, may be relatively expensive to buy, store, and maintain.
• Other known devices for evacuating non-ambulatory persons have also included boards or mats to support a patient. For example, U.S. Pat. No. 4,793,008 issued Dec. 27, 1988 to Johansson discloses rigid yet flexible mats for placing under the patient, with straps for securing the patient across the chest and thighs. A relatively complicated rescue transportation device is disclosed in U.S. Pat. No. 4,736,474 issued Apr. 12, 1988 to Moran et al, wherein an inflatable support member and crossed straps are used to secure the person being transported.
• A child restraint device with removable semi-rigid support is disclosed in U.S. Pat. No. 4,627,428 issued Dec. 9, 1986 to Brooks. It includes a semi-rigid base and a cover attachable to the base so as to secure the child between the base and the cover. A restraining harness on top of the cover secures the entire arrangement to a transporting device.
• There are numerous other patents and patent applications employing rigid or semi-rigid supports and belts or straps to secure the person transported, for example: U.S. Pat. No. 7,422,220, issued Sep. 8, 2008 to Walkingshaw; U.S. Pat. No. 6,871,368, issued Mar. 29, 2005 to Calkin; and U.S. Patent Publication No. 20060061050, published Mar. 23, 2006 to Wolf. One apparent disadvantage to the use of straps or belts is that they could exert undue or excessive pressure on the bodies of some evacuees, such as in the case of recent surgery patients. Another disadvantage that is not obvious is that the use of complicated straps or the like harnesses delays the process of readying the patient for rescue and evacuation such as in the case of a hospital fire. A further problem is the difficulty in securely and reliably gripping the sled for transport. Another disadvantage is that dragging the patient and sled across a rough surface, such as concrete, is difficult for all but the hardiest of nurses.
SUMMARY OF THE INVENTION
• In one aspect of the present invention, a patient evacuation sled apparatus includes a semi-rigid plastic sheet having (i) a rounded head end and (ii) a foot end with a rectangular portion projecting therefrom. A plurality of hand holds is disposed along each of left and right sides of the plastic sheet, each hand hold having a reinforcing plastic member disposed on an outer edge of each hand hold. A plurality of patient strap slits is disposed along each of the left and right sides of the plastic sheet. A plurality of patient straps is woven through respective ones of the plurality of patient strap slits, each patient strap comprising fix and release structure configured to releasably couple together to secure a patient on the plastic sheet. The plurality of patient straps and the plurality of patient strap slits are configured to cause the plastic sheet to curve upward into a semi-cylindrical shape when the patient straps are tightened. A plurality of head pull strap slits are disposed substantially on a longitudinal axis of the plastic sheet, with each slit being disposed substantially perpendicular to the longitudinal axis. A head pull strap is woven through the plurality of head pull strap slits and is configured to permit a person to pull the plastic sheet and the patient from the head of the plastic sheet. A plurality of left side foot strap slits is disposed at substantially 30-60 degrees with respect to the longitudinal axis, and a plurality of right side foot strap slits is disposed at substantially 30-60 degrees with respect to the longitudinal axis. At least one foot strap is woven through the plurality of left side foot strap slits and the plurality of right side foot strap slits and coupled to the head pull strap, and configured such that, when tension is applied to the head pull strap, at least a portion of the foot end rectangular portion moves upward to at least partially enclose the feet of the patient.
• In another aspect of the present invention, an evacuation sled has a semi rigid plastic sheet having a patient side and a bottom side. A plurality of flotation structures is coupled to the plastic sheet bottom side and configured to support a patient's head above water. A plurality of securement structures are configured to overlie the patient and secure the patient to the patient side of the evacuation sled. A handle structure is disposed at an end of the sled.
• In a further aspect of the present invention, an evacuation device includes a flexible plastic material configured to support a person lying thereon, and at least one flotation structure configured to be detachably attached to the flexible plastic material. A plurality of first securement structures is disposed along a first side of the flexible plastic material, and a plurality of second securement structures is disposed along a second side of the flexible plastic material. The first securement structure is configured to be engageable with the second securement structure to enclose the person to the flexible plastic material. A handle structure is disposed at an end of the sled, and the evacuation sled is configured to be rolled into a substantially compact package for storage when not in use.
• In yet another aspect of the present invention, an evacuation device has a semi-rigid plastic sheet comprising a plurality of flexible material sections pivotably attached to one another, and configured to support a person lying thereon. At least one flotation structure is detachably coupled to a bottom side of the semi-rigid plastic sheet, as is at least one rolling structure. A plurality of first securement structures is disposed along a first side of semi-rigid plastic sheet, and a plurality of second securement structures is disposed along a second side of semi-rigid plastic sheet. The first securement structure is configured to be engageable with the second securement structure to enclose the person to the semi-rigid plastic sheet. A handle structure is disposed at an end of the sled, and the semi-rigid plastic sheet is configured to be folded along the pivotable attachments into a substantially compact package for storage when not in use.
• In another aspect, patient evacuation sled apparatus includes a plastic sheet having a plurality of handholds disposed about left and right side edges of the sheet, each handhold comprising an opening with a plastic reinforcement above the opening. A plurality of patient retention straps are coupled to the plastic sheet and are configured to secure a patient in the plastic sheet when the plastic sheet is curved upward about the patient. A pull strap is coupled through a head of the plastic sheet and is configured to permit a person to drag the patient strapped to the plastic sheet. Preferably, a foot strap is affixed to the head pull strap and coupled to a foot of the plastic sheet. The foot strap is configured to cause, when tension is applied to the head pull strap, at least one portion of the plastic sheet foot to rise upward and at least partially enclose the feet of the patient.
BRIEF DESCRIPTION OF THE DRAWINGS
• Certain embodiments of the invention will now be described in detail with reference to the annexed drawings, in which:
• FIG. 1 is a top view of evacuation sled200 in accordance with one embodiment of the present invention.
• FIG. 2 is a bottom view of evacuation sled200 in theFIG. 1 embodiment, showing wheel assemblies and floatation devices.
• FIG. 3 is a perspective side view ofwheel housing224 in theFIG. 1 embodiment.
• FIG. 4 is evacuation sled200 in theFIG. 1 embodiment, in use with an evacuee secured in place.
• FIG. 5 is a top view of evacuation sled300 according to a second embodiment of the present invention.
• FIG. 6 is a bottom view of evacuation sled300 in theFIG. 5 embodiment.
• FIG. 7 is a top view ofevacuation device400 in a foldable embodiment according to the present invention.
• FIG. 8 shows howevacuation device400 can be folded for storage.
• FIG. 9 is a top view of an evacuation sled500 according to yet another embodiment of the present invention.
• FIG. 10 is a bottom view of theFIG. 9 embodiment.
• FIG. 11 is a top view of evacuation sled600 according to a further embodiment of the subject invention.
• FIG. 12 is a bottom view of theFIG. 11 embodiment.
DETAILED DESCRIPTION OF THE DISCLOSED EMBODIMENTS
• A preferred embodiment of the present invention is described with reference toFIG. 1 wherein a floating evacuation sled200 is shown. The sled200 preferably comprises a semiflexible base structure202, preferably made of a sheet of high density polyethylene (HDPE), although any suitable material may be used, such as Kevlar, composites, resins, other high density plastics, etc. Thebase202 is sufficiently flexible that it can be rolled into a cylinder for storage and transportation, but sufficiently rigid so that, when curled into a half cylindrical shape, it assumes sufficient rigidity to support an adult (up to 250 lbs.) lying therein Thebase202 is preferably about 75 inches to about 100 inches, more preferably about 80 inches to about 95 inches, and most preferably about 85 inches to about 90 inches long, with a width of about 35 inches to about 55 inches, more preferably about 40 inches to about 50 inches, and most preferably about 45 inches to about 48 inches. However, thebase202 could be any suitable size to support a person lying down. As shown inFIG. 1, the head of thebase202 is preferably hemispherical in shape, which will protect the head of a patient lying therein, and provide a skid ramp when the sled and patient are being dragged. The foot portion of thebase202 has a projecting rectangular shape configured to lie over and protect the patient's feet when thebase202 is rolled upward and the foot portion drawn up toward the patent's ankles. Weight is important for such sleds, and rescue sleds should weigh less than about 10 pounds. The preferred sled, including the straps, weighs only about 6 pounds. Such sleds also can be rolled into cylindrical form with a diameter less than about 10 inches. The preferred sled can be rolled into a cylinder less than 6 inches in diameter. The preferred thickness of the HDPE sheet is 0.05 to 0.5 inch thick, more preferably 0.1-0.25 inch thick.
• In the embodiment ofFIGS. 1 and 2, one or moreperipheral straps204 is disposed around the outer perimeter of thebase structure202, passing through a number ofcorresponding slits206. In particular, theperipheral strap204 is woven into thebase202, going from underneath to on top and back again, by passing through a plurality ofslits206, which are disposed in a spaced apart arrangement around the perimeter of thebase202, about 0.5 inches to about 6 inches, preferably about 1 inches to about 5 inches, most preferably about 2 inches to about 4 inches from the outer edge of thebase202. Theslits206 are sized to accept thestrap204. Theperipheral strap204 is used to give structural rigidity by holding the periphery of the base202 in its semi-cylindrical shape when the patient is lying therein. Theperipheral strap204 may also be used as a handle or a tie-stricture to assist in transporting the patient.
• Ahead pull strap205 is disposed at the head of thebase202 for one or more nurses to pull the sled during evacuation. The head pullstrap205 may be an extension of the peripheral strap204 (as shown inFIG. 1), or may be coupled thereto by stitching, tying, gluing, bolting, velcro-ing, welding, etc. The head pullstrap205 may also be separate from theperipheral strap204, as will be described more fully below with respect to the embodiments ofFIGS. 9 and 11. Preferably, thehead pull strap205 passes through a slit in thebase202, for added securement. Afoot pull strap207 may also be provided at the foot of thebase202, and may be configured and/or arranged as discussed above with respect to thehead pull strap205. The foot pull strap may also include an H-shaped harness for added handles during evacuation.
• A plurality (preferably four) ofbody retaining straps208 are located substantially transverse to the longitudinal axis of thebase structure202, and are preferably woven into thebase structure202 through slits210 (in substantially the same way as peripheral strap204), but with the ends of thebody strap208 extending outwardly from either side of thebase structure202. Attached to either end of the body straps208 is a fix-and-release structure, such as buckle and tang, clips, ties, Velcro™, etc. Preferably, the fix-and-release structure comprises afemale buckle connector212 and amale buckle tang214, respectively.Buckle connectors212 and214 are configured to be length-adjustable and releasably attachable to each other, in a manner similar to a standard automobile seatbelt buckle or any other suitable device. Preferably, thebuckle connectors212 and214 are corrosion resistant and unaffected by sea water or fresh water, and their physical properties will remain constant over a wide range of temperature, relative humidity, and weather conditions. The body straps208 are preferably adjustably attached to one or both of thebuckle connectors212 and214 so that the length ‘A’ of thebody strap208 located between thebuckle connectors212 and214 is adjustable. Of course, thebody strap208 can be fixedly attached to thebuckle connectors212 and214 and have some other means of adjusting said length ‘A’ between said buckle connectors.
• Around the periphery of the base202 are a plurality of hand holds216, used to grip and lift the sled when a patient is lying therein. Each hand hold216 is a corner-rounded slot approximately 3-6 inches long and 1-3 inches wide. In order to reinforce thehand hold216, a reinforcingmember217 is adhered to the base202 immediately above the hand hold216 hole. Preferably, the reinforcingmember217 is formed by cutting out the bottom and sides of thehand hold216 and then folding the cut-out portion upward and adhering it to thebase202 by welding, gluing, etc. This provides additional strength to thehand hold216 and also provides a more comfortable, thicker (2 times thickness) grip for the nurse(s) transporting the patient.
• The underside of the sled200 is shown inFIG. 2. In this embodiment,floatation structures218 are preferably disposed towards either side of thebase202 and run substantially along the length of thebase202. he floatationstructures218 are preferably detachably attached to thebase202 bystraps220 which pass throughslits222 and around thefloatation structures218 to effectively hold thefloatation structures218 in place. The body straps204 preferably pass around thefloatation structures218 when they pass to the underside of thebase202. Thefloatation structures218 are preferably formed of closed cell foam similar to children's pool toys, though any other material, such as open cell foam, air bladders, air pockets, wood, plastic, or any suitable material can be used to impart the desired buoyancy to the sled200. In an alternative embodiment, thefloatation structures218 are integral with thebase202.
• In an alternative embodiment, the bottom side of thebase202 includes at least twowheel housings224 disposed in a spaced-apart relationship to allow the sled to be rolled on the ground or other rough surfaces. With reference toFIG. 3, thewheel housings224 are preferably have a generally trapezoidal cross section to aid in sliding over obstacles as the sled200 is pulled during use. Thewheel housings224 preferably comprise a plurality ofwheel structures226. Thewheel structures226 can be any structure known in the art for allowing an object to roll over a surface including but not limited to wheel and axel assemblies, ball bearings, cylindrical members, etc. It will be appreciated by one skilled in the art that thewheel housing224 and thewheel structures226 allow the sled200 to be pulled with greater ease over a surface allowing a bed ridden patient to be evacuated by a single person. Of course, thewheel housings224 and thewheel structures226 can be arranged in any configuration and in any number or they can be omitted from the sled200 altogether. Alternatively, thewheel housings224 may be detachable from the bottom side of thebase202.
• The evacuation device200 can be rolled-up, toe to head, into a tight cylinder for transportation and/or storage when not in use. Thesled202 has a flexibility that is sufficient to allow the device to be rolled-up repeatedly without substantial fatigue to the structure of the sled200. To roll the evacuation device200, thefloatation structures218 are first removed fromstraps220 and the body straps208. Thefloatation structures218 are then placed substantially transverse to the base202 at an end. The body is then rolled from an end with thefloatation structures218 enclosed so that thefloatation structures218 are secured as thebase202 is rolled. Thestrap205 can then be looped around the rolledbase202, with thefloatation structures218 inside, so as to secure the base202 in a rolled position. In an emergency, the evacuation device200 can be made ready by unfastening thestrap205, unrolling thebase202, and securing thefloatation structures218 in thestraps220 and the body straps208.
• In use, as shown inFIG. 4, once a person is lying on the sled200, thebuckle connectors212 and214 can be brought together and attached over the top of the person. Length ‘A’ can then be adjusted to be sure that the person is secured on top of the sled200. Thestrap205 can then be used to pull and guide the evacuation sled over land or water in order to evacuate the person to a safe location.
• In one embodiment of the invention, the buoyancy of theflotation structures218 is configured so that the head end of sled200 is more buoyant than the feet end. It will be appreciated by those skilled in the art that this will keep the evacuee at an angle relative to the water with the head of the evacuee kept safely out of the water during an evacuation over water. The relative buoyancy between the head and feet ends of the sled200 is preferably 60% of total buoyancy towards the head and 40% of total buoyancy towards the feet, more preferably 70% of total buoyancy towards the head and 30% of total buoyancy towards the feet, and most preferably 80% of total buoyancy towards the head and 20% of total buoyancy towards the feet, though any relative buoyancy can be used to keep the evacuee's head at a safe distance above the water level during an evacuation. Relative buoyancy between the head and feet ends of the sled200 can also be achieved by other means such as ballast weight.
• With reference toFIGS. 5 and 6, another embodiment of an evacuation device300 is shown, which is substantially similar to the evacuation device200 described above, but without the wheel assemblies. Thus, the evacuation device300 comprises at least onefloatation bladder334, which fulfills substantially the same role as thefloatation structures218 above. Thefloatation bladder334 can be made from plastic, fabric, or any other material which can contain a gas, such as air, at a pressure. Thefloatation bladder334 is sized so that, when filled with a gas, it has sufficient buoyancy to support the evacuation device300 and a person lying on top of the evacuation device300 on water.
• Thefloatation bladders334 are kept in a flattened deflated state when the evacuation sled300 is not in use which allows for easier rolling of the evacuation device300 for storage. The evacuation device300 further comprisesair canisters336.Air canisters336 are configured to contain a substantial amount of compressed gas in order to fill thebladders334 to reach the desired floatation capabilities for evacuation device300. Again, it will be appreciated that there can be any number ofair canisters336 to contain the necessary volume of air or other gas required to fill thebladders334. Alternatively, thebladders334 can be inflated manually by breathing into an inflation tube or by an external pump.
• With reference toFIG. 7, afoldable evacuation device400 is shown.Evacuation device400 is substantially similar to evacuation device200 above, but thebase402 is preferably cut into four equal sections A, B, C, and D, and a larger section E at the foot end of thebase402. The sections are held together byhinge plates424 which are attached to the base402 on either side of cuts422.Hinge plates424 are pivotable about a central axis allowing the sections of the base402 attached to either side of thehinge plates424 to pivot in relation to each other. Alternatively, the sections of the base402 can be pivotably held together by any other means known in the art including straps, or elastic. The head pullstrap205 in this embodiment is attached directly to the base202 through a hole or slit295.
• With reference toFIG. 8, the sections of the base402 can be folded by pivoting section A about thehinge plate424 until it lays flat on top of the section B. The sections A and B are similarly folded on top of the section C. The process continues until the sections A, B, C, and D are all folded and stacked on the section E. Then, the larger section E can be wrapped around the other sections and secured with straps for storage. In an emergency, the process is reversed and thesled400 is ready for use.
• In another embodiment, thehinge plates424 compriseoptional wheel structures426 disposed in a spaced relationship along the length of thehinge plates424. Thewheel structures426 serve substantially the same function as thewheel structures226 described above. Of course, thewheel structures426 can be any structure known in the art for allowing an object to roll over a surface, including but not limited to wheel and axel assemblies and ball bearings.
• With reference toFIGS. 9 and 10, an evacuation device500 with a novel head pullstrap505 is shown. The evacuation device500 is substantially similar to the evacuation device200 described above. The evacuation device500 comprises afoot strap504, which is woven into the foot end of thebase502 and extends from the outer edges of the foot end of the base502 towards the center thereof, where the two ends of thefoot strap504 meet at ajunction509. The two ends of thestrap504 are secured together at thejunction509 using aring510, stitching, welding, gluing, or some other means of attachment. Also attached to thering510 is alongitudinal strap507. Thering510 can be metal, plastic, or any other material to provide the proper strength to hold thestraps504 and507 together. Thestrap507 is disposed down the center of the base502 substantially along its longitudinal axis, and extends from thering510 to the head end of thebase502. Thestrap507 is woven into the base502 in a substantially similar manner as theperipheral strap204 in theFIG. 1 embodiment described above. Thestrap507 extends to the head end of the base502 where it connects to or is integral with thehead pull strap505, which serves substantially the same purpose as thehead pull strap205 described above.
• With this unique structure, when thehead pull strap505 is pulled, it also pulls on thestrap504, causing the rectangular projection at the foot of the sled to pull upward to cover at least a portion of the bottoms and/or sides and/or tops of the feet of the patient. Thus, the drag weight of the patient will be supported more by the patient's feet, which is more natural and more safe than supporting the patent's drag weight with straps. At the same time, the tension on thestrap504 causes the left and right side portions of the foot of the base502 to also pull upward, enclosing the sides of the feet of the patient, adding extra security to the patient. When tension on thehead pull strap505 is relaxed, the bottom portions of the base502 may return to their original positions allowing ready access to the lower body of the patient. Preferably, thefoot strap504 is woven to the base502 with a plurality ofslits506 which are disposed non-parallel and non-perpendicular to a longitudinal axis of said plastic sheet. Preferably, theslits506 comprise three slits on each side, each disposed at an angle of 30-60 degrees with respect to the longitudinal axis of thebase502, even more preferably at an angle of substantially 45 degrees with respect to the longitudinal axis of thebase502.
• As with the other embodiments described above, the embodiment ofFIGS. 9 and 10 may haveflotation devices518, or not. Wheel assemblies and/or hinges may also be provided, as described above with respect toFIGS. 1-4 and7-8.
• In yet another embodiment shown inFIGS. 11-12, thestrap504 is omitted and instead thestrap507 extends substantially all the way to the foot end of thebase502. The end of thestrap507 passes throughslits591 and592, and is then turned back on itself and secured to a lower portion of thestrap507 by thering511, stitching, welding, gluing, or some other means of attachment. Thering511 can be metal, plastic, cloth, or any other material to provide the proper strength to hold thestraps507 together. When thehead pull strap505 is pulled, it pulls thestrap507, which raises the rectangular projecting portion of the foot of thebase502, thus enclosing the tops and/or bottom and/or sides of the feet of the patient.
• Thus, what has been described are a number of evacuation sled embodiments that are inexpensive to manufacture, efficient to store, and easy to use, yet which will protect the patient during transport.
• While this invention has been described with reference to illustrative embodiments and examples, the description is not intended to be construed in a limiting sense. Thus, various modifications of the illustrative embodiments, as well as other embodiments of the invention, will be apparent to persons skilled in the art upon reference to this description. It is therefore contemplated that the appended claims will cover any such modifications or embodiments.
• All publications, patents and patent applications referred to herein are incorporated by reference in their entirety to the same extent as if each individual publication, patent or patent application was specifically and individually indicated to be incorporated by reference in its entirety.

Claims (24)

1. (canceled)

2. A patient evacuation sled apparatus, comprising:

a semi-rigid plastic sheet having (i) a rounded head end and (ii) a foot end with a rectangular portion projecting therefrom;

a plurality of hand holds disposed along each of left and right sides of said plastic sheet, each hand hold having a reinforcing plastic member disposed on an outer edge of said each hand hold;

a plurality of patient strap slits disposed along each of the left and right sides of said plastic sheet;

a plurality of patient straps woven through respective ones of said plurality of patient strap slits, each patient strap comprising fix and release structure configured to releasably couple to secure a patient on said plastic sheet, said plurality of patient straps and said plurality of patient strap slits being configured to cause said plastic sheet to curve upward into a semi-cylindrical shape when said patient straps are tightened;

a head pull strap slit disposed substantially on a longitudinal axis of said plastic sheet, with said head pull strap slit being disposed substantially perpendicular to said longitudinal axis;

at least one head pull strap woven through the head pull strap slit and configured to permit a person to pull said plastic sheet and the patient from the head of said plastic sheet;

a plurality of left side foot strap slits disposed at substantially 30-60 degrees with respect to said longitudinal axis, and a plurality of right side foot strap slits disposed at substantially 30-60 degrees with respect to said longitudinal axis;

at least one foot strap woven through said plurality of left side foot strap slits and said plurality of right side foot strap slits, and configured such that at least a portion of said foot end rectangular portion extends upward to at least partially enclose the feet of the patient; and

at least one foot pull strap coupled to said at least one foot strap and configured to permit a person to pull said plastic sheet and the patient from the foot of said plastic sheet.

3. Apparatus according toclaim 2, wherein said at least one foot strap, said plurality of left side foot strap slits, and said plurality of right side foot strap slits are configured such that at least a portion of a lower left side portion of said plastic sheet and at least a portion of a lower right side portion of said plastic sheet move upward to at least partially enclose the feet of the patient.

4. Apparatus according toclaim 2, wherein said at least one foot pull strap comprises at least two foot pull straps.

5. Apparatus according toclaim 2, wherein at least two portions of said at least one foot strap are disposed at substantially 30-60 degrees with respect to said longitudinal axis.

6. Apparatus according toclaim 2, wherein each of said plurality of patient straps is woven through at least four of said plurality of patient strap slits.

7. Apparatus according toclaim 2, wherein at least three of said plurality of patient strap slits are disposed in a first line substantially parallel to said longitudinal axis, and wherein at least one of said plurality of patient strap slits is disposed along a second line substantially parallel to said longitudinal axis but different than said first line.

8. Apparatus according toclaim 2, wherein said plurality of patient straps comprises at least four patient straps.

9. An evacuation sled comprising:

a semi rigid plastic sheet having (i) a patient side and a bottom side, (ii) a head end with a head pull strap and a foot end with a foot strap, and (iii) a longitudinal axis;

a plurality of securement structures configured to (i) overlie said patient and secure said patient to said patient side of said evacuation sled, and (ii) cause sides of the plastic sheet curl up along the sides of the patient when the securement structures are secured;

the foot strap affixed to the plastic sheet such that at least one portion of said plastic sheet foot raises upward and at least partially encloses the feet of the patient; and

a foot pull strap coupled to said foot strap.

10. The evacuation sled as claimed inclaim 9, further comprising a plurality of left side foot strap slits disposed at substantially 30-60 degrees with respect to said longitudinal axis, and a plurality of right side foot strap slits disposed at substantially 30-60 degrees with respect to said longitudinal axis.

11. The evacuation sled as claimed inclaim 10, wherein said foot strap is woven through the plurality of left side foot strap slits and through the plurality of right side foot strap slits.

12. The evacuation sled as claimed inclaim 11, wherein at least two portions of said foot strap are disposed at substantially 30-60 degrees with respect to said longitudinal axis.

13. The evacuation sled as claimed inclaim 9, further comprising a plurality of patient strap slits disposed along left and right sides of the plastic sheet, and wherein each of said plurality of securement structures is woven through at least four of said plurality of patient strap slits.

14. The evacuation sled as claimed inclaim 9, wherein the plastic sheet comprises a flexible material and is configured to be rolled up for storage when not in use.

15. The evacuation sled as claimed inclaim 9, wherein said plurality of securement structures comprises at least four patient straps.

16. An evacuation device comprising:

a flexible plastic material configured to support a person lying thereon, and having (i) a head end with a head pull strap and a foot end with a foot strap, and (ii) a longitudinal axis;

a plurality of patient strap slits disposed in four substantially parallel lines substantially parallel to said longitudinal axis, two lines of slits being disposed on a right side of said longitudinal axis, and two lines of slits being disposed on a left side of said longitudinal axis;

a plurality of patient straps woven through said plurality of patient strap slits such that (i) each of said plurality of patient straps is woven through at least two patient strap slits, (ii) a portion of said each of said plurality of patient straps underlies a patient, and (iii) when at least one of the plurality of patient straps is secured over top of the patient, sides of the plastic sheet curl upward toward the sides of the patient;

a handle structure disposed at an end of the sled;

a foot strap coupled to the foot end of said plastic material, said foot strap being configured to cause at least one portion of the plastic material foot end to raise upward and at least partially enclose the feet of the patient; and

the evacuation sled being configured to be rolled into a substantially compact package for storage when not in use.

17. The evacuation device as claimed inclaim 16, further comprising a plurality of left side foot strap slits disposed at substantially 30-60 degrees with respect to said longitudinal axis, and a plurality of right side foot strap slits disposed at substantially 30-60 degrees with respect to said longitudinal axis.

18. The evacuation device as claimed inclaim 17, wherein said foot strap is woven through the plurality of left side foot strap slits and through the plurality of right side foot strap slits.

19. The evacuation sled as claimed inclaim 18, wherein at least two portions of said foot strap are disposed at substantially 30-60 degrees with respect to said longitudinal axis.

20. An evacuation device comprising:

a semi-rigid plastic sheet comprising a plurality of flexible material sections pivotably attached to one another, and configured to support a person lying thereon, said semi-rigid plastic sheet having a head end with a head pull strap and a foot end with a foot strap;

a plurality of first securement structures disposed along a first side of semi-rigid plastic sheet;

a plurality of second securement structures disposed along a second side of semi-rigid plastic sheet;

each said first securement structure being configured to be engageable with a corresponding second securement structure to enclose a least a portion of the person within said semi-rigid plastic sheet;

a handle structure disposed at an end of the sled;

the foot strap coupled to the foot end of said plastic material, said foot strap being configured to cause at least one portion of said plastic material foot to raise upward and at least partially enclose the feet of the patient; and

said semi-rigid plastic sheet being configured to be folded along said pivotable attachments into a substantially compact package for storage when not in use.

21. Patient evacuation sled apparatus, comprising;

a plastic sheet having a plurality of handholds disposed about left and right side edges of said sheet, each handhold comprising an opening with a plastic reinforcement above said opening;

a plurality of patient retention straps coupled to said plastic sheet and configured to secure a patient in said plastic sheet when said plastic sheet is curved upward about the patient;

a pull strap coupled to a head of said plastic sheet and configured to permit a person to drag the patient strapped to the plastic sheet; and

a foot strap coupled to a foot of said plastic sheet, said foot strap being configured to cause at least one portion of said plastic sheet foot to raise upward and at least partially enclose the feet of the patient, at least two portions of the foot strap being disposed at an angle of from about 30 degrees to about 60 degrees with respect to a longitudinal axis of the plastic sheet.

22. Apparatus according toclaim 21, wherein said head pull strap and said foot strap are each coupled to said plastic sheet by being woven into said plastic sheet through a respective plurality of slits therein, at least of said slits being disposed at an angle of from about 30 degrees to about 60 degrees with respect to a longitudinal axis of the plastic sheet.

23. Apparatus according toclaim 21, wherein said foot strap is woven to said plastic sheet with a plurality of foot strap slits which are disposed non-parallel and non-perpendicular to a longitudinal axis of said plastic sheet.

24. Apparatus according toclaim 21, further comprising a ring which couples two ends of said foot strap together.

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